KR20170047928A - Method and Apparatus for Hearing Calibration Based on Audiogram - Google Patents

Abstract

A method and an apparatus for correcting hearing based on audiogram are disclosed. The present invention relates to the method and the apparatus for correcting hearing based on audiogram which determine a hearing state of a user according to a hearing test, set a compression start point corresponding to each hearing state, and amplify an input sound based on the set compression start point. The hearing correction apparatus comprises: a hearing test result obtaining unit; a hearing threshold calculating unit; a hearing state determining unit; and a sound amplification control unit.

Description

TECHNICAL FIELD [0001] The present invention relates to a hearing aid based hearing correction method,

The present invention relates to a method and apparatus for correcting hearing based on hearing.

The contents described in this section merely provide background information on the present embodiment and do not constitute the prior art.

The hearing impairments are increasing due to the increase in ambient noise and the aging population. To solve this problem, the use of hearing aids such as hearing aids is increasing. The hearing aid is a hearing aid that amplifies the sound of the lost frequency band by measuring the hearing ability of the user.

The amplification methods used for hearing compensation include a linear amplification method and a non-linear amplification method.

Linear amplification is an amplification method in which the rate of increase of the input sound and the rate of increase of the output sound are the same until the input sound pressure is saturated.

The nonlinear amplification method is an amplification method in which the rate of increase of the output sound is different from the rate of increase of the input sound based on the compression start point (Knee-point or Compression Threshold). This method adjusts the amplification in consideration of the degree of hearing loss of the user.

Recently, a wide dynamic range compression (WDRC) algorithm based on the nonlinear amplification method is widely used.

On the other hand, in the case of a hearing-impaired person, the compression starting point is lowered to a predetermined input sound level (for example, 40 dB) or lower so that the hearing correction device can be heard at a proper size from a small sound to a loud sound. In this case, some sounds are distorted, but there is an advantage of outputting the corrected sound even in the narrowed audible range of the hearing impaired person.

However, in the case of a hearing impaired user having a hearing loss of less than a predetermined input sound level (for example, 40 dB), distortion of the sound due to such nonlinear compression hinders proper recognition of sound.

This embodiment is a hearing correction method based on hearing degree in which a hearing state of a user according to a hearing test is determined, a compression starting point corresponding to each of the hearing states is set, and an input sound is amplified on the basis of the set compression start point, The main purpose is to provide.

According to an aspect of the present invention, there is provided a hearing test result obtaining unit for obtaining hearing test result information on a hearing test performed on a user; A hearing threshold value calculation unit for calculating an average hearing threshold value based on the hearing test result information; A hearing state determining unit for determining a hearing state of the user based on the average hearing threshold; And an acoustic amplification controller for setting a compression start point based on the hearing state and amplifying an input sound based on the compression start point.

According to another aspect of the present invention, there is provided a hearing test result obtaining process for obtaining hearing test result information on a hearing test performed on a user; A hearing threshold calculation process of calculating an average hearing threshold value based on the hearing test result information; Determining a hearing state of the user based on the average hearing threshold; And an acoustic amplification control step of setting a compression start point based on the hearing state and amplifying an input sound based on the compression start point.

As described above, according to the present embodiment, since the input sound is amplified according to the hearing state of the user, most of the ordinary sound can be heard without a missing sound in the case of the hard-of-hearing person. In addition, for a high sound level that can damage the hearing, the amplified sound can be heard, which significantly improves the problem of lowering the awareness due to the acoustic distortion.

1 is a block diagram schematically showing a hearing correction system according to the present embodiment.
2 is a block diagram schematically showing a hearing correction apparatus according to the present embodiment.
3 is a flowchart for explaining a method of hearing correction based on hearing ability according to the present embodiment.
4 is an exemplary diagram for explaining hearing correction based on the hearing degree according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

The hearing correction apparatus 120 according to the present embodiment solves such problems as distortion of the sound and lowering of the perception rate in the conventional hearing correction method. That is, the hearing correction apparatus 120 according to the present embodiment sets the compression start point based on the hearing state of the user and performs amplification according to the level of the input sound based on the compression start point.

1 is a block diagram schematically showing a hearing correction system according to the present embodiment.

The hearing correction system according to the present embodiment includes a hearing measurement device 110 and a hearing correction device 120. [

The hearing measurement device 110 performs a hearing test on the user and transmits information on hearing ability test results to the hearing correction device 120. [ Here, the hearing test result information includes frequency band information, and a hearing threshold value for each of a plurality of frequencies. For example, the hearing test result information may include results (hearing thresholds) for frequency bands of 250 Hz, 500 Hz, 1 kHz, and so on. In the case of fine-tuned hearing tests, the frequency bands 125 Hz, 2 kHz and 4 kHz may be added but are not limited thereto.

The hearing test method performed by the hearing measurement device 110 is to listen to the user such as noise, sound or voice and to measure the hearing ability through the response (response signal) thereto. The hearing test method can be roughly divided into pure tone hearing test and speech audiometry test.

Pure tone audiometry provides a variety of hearing aids to the audiometric device 110 through headphones worn by the user in a soundproofed space and allows feedback of the response signal as soon as the user hears the sound, The controller 110 performs a test in such a manner that the audiogram is recorded along with the frequency of the tone of the tone that the user first heard. Here, the response signal may be a signal generated by the button input by the user.

Pure tone audiometry measures frequency-specific hearing thresholds from low to high frequencies. Here, the hearing threshold value means the minimum size at which the user starts to hear the sound for the first time. For example, if the average of the hearing threshold per frequency obtained from the pure tone audiometry is less than 25 dB, the audiometric device 110 provides hearing aid test result information for 25 dB to the hearing aid device 120, .

On the other hand, speech audiometry is a method of checking how well a user can understand speech in a quiet or noisy environment. The audiometric device 110 notifies the user of specific words set at a certain level, and determines whether or not the user recognizes the words.

The hearing correction apparatus 120 determines the hearing state of the user by using the average hearing threshold calculated based on the hearing examination result information, and sets the compression starting point in a manner corresponding to the determined hearing state. The hearing correction apparatus 120 outputs the output sound obtained by amplifying the input sound based on the simple amplification or the predetermined amplification rate based on the set compression start point.

The hearing correction apparatus 120 acquires the hearing test result information from the hearing measurement device 110 and calculates an average hearing threshold value based on the hearing test result information. That is, the hearing correction apparatus 120 extracts a hearing threshold value for each of at least one predetermined frequency band of the hearing test result information, calculates an average value of the plurality of extracted hearing thresholds, and calculates the average hearing threshold value of the user.

The hearing correction device 120 compares the average hearing threshold value with the predetermined reference loss value among the hearing loss degrees. If the average hearing threshold value is less than the reference loss value, the hearing correction device 120 determines that the user's hearing condition is less than the middle hearing loss, If it is more than the loss value, it is judged that the hearing state of the user is more than moderate hearing loss.

When the hearing state of the user is a mild or moderate hearing loss (one of moderate hearing loss, moderate hearing loss, severe hearing loss, and hearing loss), the hearing correction device 120 sets the average hearing threshold value as a compression start point, Based on the compression start point, the input sound is amplified by using different amplification ratios. Here, the hearing correction apparatus 120 applies a predetermined amplification factor to amplify the sound to a range of a predetermined output sound for an input sound below the compression start point, and outputs a remaining amplification factor for the input sound beyond the compression start point, The compression amplification factor is given so that the sound is amplified within the range of the sound.

On the other hand, when the hearing state of the user is less than moderate hearing loss (mild hearing loss), the hearing correction device 120 sets the value calculated using the maximum output value of the output sound and the average hearing threshold value as the compression start point, Amplifies the input sound using an average hearing threshold value according to the size of the input sound, or calculates a predetermined amplification factor to amplify the input sound. Here, the compression start point means a difference value obtained by calculating a value corresponding to a predetermined ratio from the maximum output value of the output sound and subtracting the average hearing threshold value from the value corresponding to the predetermined ratio.

When the input sound of less than the compression start point is input based on the compression start point, the hearing correction device 120 linearly amplifies the input sound by the range of the average hearing threshold value. When an input sound equal to or higher than the compression start point is input based on the compression start point, the hearing correction device 120 compresses and amplifies the input sound according to the predetermined amplification rate calculated based on the output sound range. The range of the output sound that can be output is a range between the output value obtained by amplifying the compression start point by the average hearing threshold value and the maximum output value of the output sound. The hearing correction apparatus 120 outputs the amplified output sound to the outside based on the hearing state of the user.

2 is a block diagram schematically showing a hearing correction apparatus according to the present embodiment.

The hearing correction apparatus 120 according to the present embodiment includes a hearing test result acquisition unit 210, a hearing threshold value calculation unit 220, a hearing status determination unit 230, a compression start point setting unit 240, an acoustic amplification control unit 250 An acoustic input unit 260, and an acoustic output unit 270.

The hearing test result obtaining unit 210 obtains hearing test result information on the hearing test performed on the user. Here, the hearing test result information includes frequency band information, and a hearing threshold value for each of a plurality of frequencies. For example, the hearing test result information includes results (hearing thresholds) for frequency bands of 250 Hz, 500 Hz, 1 kHz, and the like.

The hearing threshold value average calculating unit 220 calculates an average hearing threshold value based on the hearing test result information. The hearing threshold value average calculating unit 220 extracts the hearing threshold value for each of the predetermined frequency bands in at least one of the hearing test result information, and calculates the average hearing threshold value using the extracted plural hearing threshold values. Here, the predetermined frequency band is preferably a frequency band of 250 Hz, 500 Hz, 1 kHz or the like which is a standard in the hearing correction algorithm, but it is not limited thereto, and 125 Hz, 2 kHz and 4 kHz frequency bands are added .

In calculating the average of the hearing threshold values for all or a part of the frequency bands included in the hearing test result information, the hearing threshold value average calculating unit 220 may calculate an average hearing threshold value by assigning a frequency-based weight value. In other words, the hearing threshold value average calculating unit 220 calculates an average hearing threshold value using all or some of the frequency bands included in the hearing test result information, or a hearing threshold value given a high weight for a predetermined frequency band Can be calculated.

The hearing state determination unit 230 determines the hearing state of the user based on the average hearing threshold value. Specifically, the hearing-state determining unit 230 compares the average hearing threshold with the predetermined hearing loss to determine the hearing state of the user corresponding to the average hearing threshold. Here, the predetermined hearing loss degree is classified into, for example, 20 dB, 40 dB, 55 dB, 70 dB, 90 dB and 91 dB or more. Depending on the degree of hearing loss, the hearing status of the user can be classified into normal hearing ability up to 20 dB, mild hearing loss up to 40 dB, moderate hearing loss up to 55 dB, moderate hearing loss up to 70 dB, . The range of the predetermined hearing loss degree can be changed by the user's input.

The hearing-state determining unit 230 compares the average hearing threshold value with a preset reference loss value among the hearing loss degrees to determine whether the hearing state of the user is more than or less than the hearing loss severity. Specifically, if the average hearing threshold value is less than the reference loss value, the hearing state determining unit 230 determines that the hearing state of the user is less than the middle ear canal loss. If the average hearing threshold value is equal to or greater than the reference loss value, . For example, if the predetermined reference loss value is 40 dB, the hearing state determination unit 230 determines that the hearing state of the user is less than moderate hearing loss (mild hearing loss) if the average hearing threshold value is less than 40 dB, If the threshold value is more than 40 dB, the hearing status of the user is judged to be a severe hearing loss (moderate hearing loss, moderate hearing loss, high degree hearing loss, or deep hearing loss).

On the other hand, if the average hearing threshold value is equal to or greater than the reference loss value, the hearing state determination unit 230 may determine that the hearing state of the user is less than the severe hearing loss if at least one of the frequency-

The compression start point setting unit 240 sets the compression start point using the average hearing threshold value. In other words, the compression start point setting unit 240 sets the compression start point on which the simple amplification or the compression amplification is a reference by using the average hearing threshold value according to the hearing state of the user. Herein, the compression start point means a creep of an input sound which is compressed and amplified based on a predetermined amplification rate.

The compression start point setting unit 240 sets the compression start point in a different manner for each of the states in which the hearing state of the user is less than the hearing loss and the hearing loss is more than the hearing loss state.

<Hearing status of the user: less than moderate hearing loss (mild hearing loss)>

When the hearing state of the user is less than mild hearing loss (mild hearing loss), the compression start point setting unit 240 sets a value calculated using the maximum output value of the output sound and the average hearing threshold as the compression start point.

The compression start point setting unit 240 sets a compression start point such that compression starts at an output value corresponding to a predetermined ratio (e.g., about 90%) of the maximum output value of the output sound. More specifically, the compression start point setting unit 240 sets the compression start point setting unit 240 to compress the input sound so that the output sound corresponding to a predetermined ratio of the maximum output value among the range of output sounds output from the hearing correction apparatus 120 is output. Set the starting point. Here, the output value corresponding to the predetermined ratio may be set to a value between about 80% and 90% of the maximum output value, and a predetermined ratio value may be set to be 0.8 to 0.9.

For example, if the maximum output value of the output sound is 120 dB in the hearing aid correction apparatus 120, the compression start point setting unit 240 sets the compression start point of the sound output from 108 dB corresponding to a predetermined ratio (for example, about 90% Set the compression start point so that the output sound is output. If the average hearing threshold value is 40 dB, the compression start point setting unit 240 sets the compression hearing threshold value at 108 dB so as to output a compressed output sound at 108 dB corresponding to a predetermined ratio (for example, about 90%) of the maximum output value Set the compression start point at 68 dB minus the threshold value.

The compression start point setting unit 240 sets a value calculated using Equation (1) as a compression start point when the hearing state of the user is less than the hearing loss.

(C: starting point of compression of input sound, _Omax : maximum output value (dB) of output sound, X: predetermined ratio value and H: average hearing threshold value (dB)

<Hearing status of the user: severe hearing loss (moderate hearing loss, moderate hearing loss, severe hearing loss, severe hearing loss)>

The compression start point setting unit 240 sets the average hearing threshold value as the compression start point when the hearing state of the user is a mild or moderate hearing loss (one of moderate hearing loss, moderate hearing loss, high degree hearing loss, and deep hearing loss). Here, the compression start point setting unit 240 sets the average hearing threshold value as the compression start point of the input sound for each of the plurality of frequencies. On the other hand, the compression start point setting unit 240 sets the compression start point setting unit 240 to set the compression hearing threshold value for each frequency instead of the average hearing threshold value if necessary, in the case where the hearing state of the user is a hearing loss abnormality (one of moderate hearing loss, moderate hearing loss, May be set as the compression start point for each frequency.

The acoustic amplification control unit 250 amplifies the input sound based on the compression start point set based on the hearing state of the user and outputs the amplified output sound by the sound output unit 270.

The acoustic amplification control unit 250 amplifies the input sound based on the average hearing threshold value when a compression start point for a state in which the hearing state of the user is less than moderate hearing loss (mild hearing loss) is set. Meanwhile, when the hearing state of the user is in the middle of hearing loss (moderate hearing loss, moderate hearing loss, severe hearing loss, or severe hearing loss), the sound amplification control unit 250 calculates a predetermined amplification rate and outputs the input sound using the calculated amplification rate Amplify.

<Hearing status of the user: less than moderate hearing loss (mild hearing loss)>

The acoustic amplification control unit 250 amplifies the input sound by using the average hearing threshold value according to the size of the input sound based on the compression start point when the user's hearing state is set to a compression starting point for a state where the hearing state is less than the middle ear canal Or amplifies the input sound by calculating a predetermined amplification factor.

The sound amplification control unit 250 amplifies the input sound by an average hearing threshold value when an input sound below the compression start point is input based on the compression start point. That is, the acoustic amplification control unit 250 performs linear amplification by the range of the average hearing threshold value. For example, when the compression start point is 60 dB and the average hearing threshold value is 40 dB, the acoustic amplification control unit 250 amplifies 40 dB to 40 dB to 100 dB when an input sound of 0 dB to 60 dB is input Thereby outputting the output sound of the speaker.

For mildly hearing impaired persons whose hearing cognitive ability is smaller than that of the middle hearing impaired, the acoustic perception can be increased even if the input hearing threshold value is amplified by the average hearing threshold value. The reason why we can increase the acoustic perception rate is that most of the dialogue sounds are in the range of 60 dB to 70 dB, so that the hard of hearing people can hear the conversation by simple amplification.

On the other hand, when the input sound over the compression start point is input based on the compression start point, the sound amplification control unit 250 compresses and amplifies the input sound according to the predetermined amplification rate calculated based on the range of the output sound that can be output. Here, the range of the output sound that can be output means the range between the output value obtained by amplifying the compression start point by the average hearing threshold value and the maximum output value of the output sound. In other words, the range of outputable output sound is a range between a maximum output value of the output sound and a value corresponding to a predetermined ratio of the maximum output value.

The acoustic amplification control unit 250 calculates a predetermined amplification factor for amplifying and amplifying the input sound over the compression start point within the range of the output sound that can be output and compresses and amplifies the input sound according to the amplification rate of the calculated adjustment. For example, when the compression start point is 60 dB and the average hearing threshold value is 40 dB, the acoustical amplification control unit 250 sets the compression start point to a value between 100 dB and 100 dB, which is the range between the output value amplified by the average hearing threshold value, Compress the input sound of 60 dB to 110 dB according to the amplification factor calculated to compress the input loudspeaker within the range of 110 dB.

<Hearing status of the user: severe hearing loss (moderate hearing loss, moderate hearing loss, severe hearing loss, severe hearing loss)>

When a compression start point is set for a state in which the hearing state of the user is in the middle of hearing loss (middle ear hearing loss, moderate hearing loss, severe hearing loss, or severe hearing loss), a different amplification factor To amplify the input sound. Here, the range of the output sound that can be output means the entire output range of the output sound. Also, the different amplification rates may be differently predetermined amplification rates for input sounds above or below the compression start point, but are not necessarily limited thereto.

In FIG. 1, the compression start point setting unit 240 and the acoustic amplification control unit 250 are configured as separate modules. However, the present invention is not limited thereto and may be implemented as a single module. For example, the compression start point setting unit 240 and the sound amplification control unit 250 set a compression start point according to the hearing state of the user and amplify and control the input sound based on the compression start point set based on the hearing state of the user And may be implemented as a single module such as a control unit.

The acoustic input unit 260 acquires an input sound received from the outside. That is, the sound input unit 260 receives the sound signal and converts it into an electric signal. The sound input unit 260 is preferably implemented in the form of a microphone, but it can be implemented in any form as long as it can receive sounds.

The sound output unit 270 outputs the amplified output sound from the sound amplification control unit 250. That is, the sound output unit 270 converts the amplified electric signal into an output sound signal and outputs the converted sound signal. Here, the sound output unit 270 may be implemented in the form of a receiver, i.e., a speaker.

3 is a flowchart for explaining a method of hearing correction based on hearing ability according to the present embodiment.

The hearing correction apparatus 120 acquires the hearing test result information from the hearing measurement apparatus 110 (S310).

The hearing correction apparatus 120 calculates an average hearing threshold value based on the hearing test result information (S320). The hearing correction apparatus 120 extracts a hearing threshold value for each of one or more predetermined frequency bands of the hearing test result information, calculates an average value of the extracted one or more hearing thresholds, and calculates a user's average hearing threshold value.

The hearing correction apparatus 120 determines the hearing state of the user based on the average hearing threshold value (S330). The hearing correction device 120 compares the average hearing threshold value with the predetermined reference loss value among the hearing loss degrees, and if the average hearing threshold value is less than the reference loss value, the hearing correction device 120 determines that the user's hearing condition is less than the middle hearing loss, If it is more than the numerical value, it is judged that the hearing state of the user is equal to or more than moderate hearing loss.

As a result of the judgment in the step S330, if the hearing state of the user is a severe hearing loss (one of moderate hearing loss, moderate hearing loss, severe hearing loss and deep hearing loss), the hearing correction device 120 sets the average hearing threshold value as a compression starting point ).

The hearing correction apparatus 120 amplifies the input sound using different amplification ratios based on the compression start point based on the range of the output sound that can be output (S334). Here, the hearing correction apparatus 120 can amplify the input sound by using different amplification ratios for the input sound that is above or below the compression start point based on the compression start point in the entire output range of the output sound. On the other hand, the hearing correction apparatus 120 may set an amplification factor for each of a plurality of frequencies based on a frequency-based compression start point for the input sound, and may amplify the input sound according to the amplification rates for the respective frequencies.

If it is determined in step S330 that the hearing status of the user is less than moderate hearing loss (mild hearing loss), the hearing correction device 120 sets a value calculated using the maximum output value of the output sound and the average hearing threshold value as the compression start point S340). The hearing correction apparatus 120 calculates a value corresponding to a predetermined ratio from the maximum output value of the output sound and sets a difference value obtained by subtracting the average hearing threshold value from the value corresponding to the predetermined ratio as the compression starting point.

The hearing correction apparatus 120 compares the level of the input sound with the compression start point (S350). The hearing correction apparatus 120 amplifies the input sound using the average hearing threshold value according to the size of the input sound based on the compression start point, or calculates a predetermined amplification rate to amplify the input sound.

As a result of the comparison in step S350, if an input sound less than the compression start point is input based on the compression start point, the hearing correction device 120 amplifies the input sound by the average hearing threshold value (S360). That is, the hearing correction apparatus 120 performs linear amplification for a range of the average hearing threshold value for the input sound.

On the other hand, if it is determined in step S350 that the input sound of the compression start point or more is input based on the compression start point, the hearing correction device 120 compresses the input sound according to the predetermined amplification rate calculated based on the output sound range And amplifies it (S362). Here, the range of the output sound that can be output means the range between the output value obtained by amplifying the compression start point by the average hearing threshold value and the maximum output value of the output sound.

The hearing correction apparatus 120 transmits the amplified output sound based on the hearing state of the user (S370).

4 is an exemplary diagram for explaining hearing correction based on the hearing degree according to the present embodiment.

4 (a) is an exemplary diagram showing amplification of input sound in a conventional hearing aid. As shown in FIG. 4A, when the input sound of 0 to 110 dB is calibrated to the user for a person with a hearing threshold value of 40 dB, the conventional hearing correction device adjusts the compression starting point to 40 dB And adjust the gain of the input sound within a maximum output of 110 dB.

In this case, the user may not be able to hear the input acoustic range (0 to 20 dB) at a certain level, and the sound due to the frequency compression is heard from the sound having the output sound of 40 dB or more. Actually, since the sound includes various frequency bands, the compression start point is determined in consideration of the hearing threshold value of the user and the influence of the adjacent frequency band. Therefore, the actual output sound value generated by compression on the frequency, If a hard-of-hearing person listens to it, it will sound like a significant distortion.

If the compression start point is set to 0 dB, there is an advantage that the user can hear the sound of all the input sounds, but if the hearing loss is relatively low, the result is that the distorted sound is heard more frequently .

4B is an exemplary diagram showing amplification of input sound in the hearing aid correction apparatus 120 according to the present embodiment. As shown in FIG. 4A, the hearing correction apparatus 120 measures the auditory threshold value at about 100 dB corresponding to a 90% ratio from 110 dB, which is the maximum output value of the output sound, for a person having a hearing threshold of 40 dB And a difference value of 60 dB obtained by subtracting 40 dB is set as the compression start point (420).

When an input sound of less than 60 dB is input based on the compression start point 420, the hearing correction device 120 performs linear amplification on the input sound by a hearing threshold value of 40 dB to output an output sound. On the other hand, when the input sound of 60 dB or more is inputted, the hearing correction device 120 outputs 60 dB or more within a range between 100 dB corresponding to 90% of the maximum output value of output sound and 110 dB maximum output sound value And outputs an output sound obtained by compressing and amplifying the input sound according to a predetermined amplification factor.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

As described above, the present embodiment is applied to a field for correcting hearing, and by performing amplification of an input sound according to a hearing state of a user, most of the ordinary sounds can be heard without a missing sound in the case of a hard- It is a useful invention that can amplify the amplified sound for a high sound level which can damage the hearing, thereby remarkably improving the problem of lowering the perception due to the acoustic distortion.

110: hearing measurement device 120: hearing correction device
210: hearing test result obtaining unit 220: hearing threshold value calculating unit
230: hearing state determination unit 240: compression start point setting unit
250: acoustic amplification control unit 260: acoustic input unit
270:

Claims (11)

A hearing test result obtaining unit for obtaining hearing test result information on a hearing test performed on a user;
A hearing threshold value calculation unit for calculating an average hearing threshold value based on the hearing test result information;
A hearing state determining unit for determining a hearing state of the user based on the average hearing threshold; And
An acoustic amplification control unit for setting a compression start point based on the hearing state and amplifying an input sound based on the compression start point,
And a hearing correction unit for correcting the hearing. The method according to claim 1,
Wherein,
A compression start point setting unit for setting a compression start point using the average hearing threshold according to the hearing state; And
An acoustic amplification control unit for amplifying all or a part of the input sound based on the compression start point in a manner corresponding to the hearing state,
And a hearing correction unit for correcting the hearing. 3. The method of claim 2,
The compression start point setting unit sets,
And sets the value calculated using the maximum output value of the output sound and the average hearing threshold value as a first compression start point when the hearing state is less than the middle ear canal. The method of claim 3,
The compression start point setting unit sets,
And sets a difference value obtained by subtracting the average hearing threshold value from a value corresponding to a predetermined ratio of the maximum output value to the first compression start point. The method of claim 3,
Wherein the acoustic amplification control unit comprises:
And amplifies the input sound by the average hearing threshold value when an input sound having a size less than the first compression start point is input based on the first compression start point. The method of claim 3,
Wherein the acoustic amplification control unit comprises:
And compressing and amplifying the input sound according to a predetermined amplification rate calculated based on a range of the output sound that can be outputted when an input sound having a size equal to or larger than the first compression start point is input based on the first compression start point,
Wherein the range of outputable output sound means a range between a maximum output value of the output sound and a value corresponding to a predetermined ratio of the maximum output value. 3. The method of claim 2,
The compression start point setting unit sets,
And sets the average hearing threshold value as a second compression starting point when the hearing state is not less than the hearing loss state. 8. The method of claim 7,
Wherein the acoustic amplification control unit comprises:
Sets amplification factors different from each other based on the second compression start point in the entire output range of the output sound, and compresses and amplifies the input sound according to the different amplification ratios. The method according to claim 1,
The hearing threshold value calculating unit calculates,
Extracts a hearing threshold value for each of at least one frequency band of the hearing test result information, and calculates an average value of the extracted one or more hearing threshold values to calculate the average hearing threshold value. The method according to claim 1,
The hearing-state determining unit,
The hearing status corresponding to the average hearing threshold is judged by comparing the reference hearing loss threshold and the average hearing threshold, and the hearing status is classified into a state in which the hearing impairment is less than moderate hearing loss (mild hearing loss) Hearing loss, hearing loss, moderate hearing loss, altitude hearing loss, and deep hearing loss). A hearing test result acquiring process for acquiring hearing test result information on a hearing test performed on a user;
A hearing threshold calculation process of calculating an average hearing threshold value based on the hearing test result information;
Determining a hearing state of the user based on the average hearing threshold; And
An acoustic amplification control process of setting a compression start point based on the hearing state and amplifying an input sound based on the compression start point
The hearing correction method comprising the steps of:

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